The equation E=mc^2 is a combination of two well know theories: the conservation of mass and the conservation of energy. These two theories state that mass and, by consequence of Einsteins discovery, energy can not be created or destroyed. Their form can only be changed or converted.
Coefficients in a chemical equation represent the number of units of the formula immediately following the coefficient that are involved in the balanced equation for the reaction.
This depends on the kind of data that you are trying to prove. In earth science we use differential equations to calculate and modelate amounts of nutrients in soil organic matter, for example. In this way you can describe occurances with mathematical formulas. In the differential equation you should describe the gaining terms and losing terms. E.g., in biology we describe population dynamics as follows. DN/dt (change in population size N over time t) = rN -dN. Here rN describes the amount of individuals that are born and dN describes the amount of individuals that die. In summary, describe a formula where there is a loss of something and a gain and you have a model.
I can get started on that just as soon as you show me the equation.
Gabriel Vinetciano found an equation explaining the strong nuclear force.He found an equation and published his papers.This led to the foundation of the string theory as these equations were an answer to the string theory
Schrodinger wave equation
Law of conservation of masses.
If you consider mass and energy to be equivalent and interchangeable, it does not conflict with the law of conservation of energy. E=mc2 states that energy is mass and mass is energy, so it does not disprove the law of conservation of energy.
Yes. It is a conservation law, showing that mass and energy are only different manifestations of the same thing.
That equation is the equation that Albert Einstein came up with to describe how to calculate the speed of light. E = energy m = mass c = speed of light
How did scientists apply albert einsteins equation e equals mc2?"
E=Mc^2
nuclear power
speed of light
No balance=No conservation of mass So, you would not know how much to add from this reactant and maybe no reaction will occur.
In Einsteins equation, E mc2, E is energy, m is mass, and c is the speed of light
Energy
Very much so. The incorrect ones never became famous.